- Author
-
Welch, S.
|
Miles, S.
|
Kumar, S.
|
Lemaire, T.
|
Chan, A.
- Title
- FIRESTRUC: Integrating Advanced Three-Dimensional Modeling Methodologies for Predicting Thermo-mechanical Behaviour of Steel and Composite Structures Subjected to Natural Fires.
- Coporate
- Edinburgh Univ., Scotland
Building Research Establishment, Garston, England
TNO Efectis, Delft, Netherlands
- Book or Conf
- Fire Safety Science. Proceedings. Ninth (9th) International Symposium. International Association for Fire Safety Science (IAFSS). September 21-26, 2008,
Intl. Assoc. for Fire Safety Science, Boston, MA,
Karlsruhe, Germany,
Karlsson, B., Editors,
1315-1326 p.,
2008
- Keywords
-
fire safety
|
fire science
|
steel structures
|
thermodynamics
|
computational lfuid dynamics
|
coupling
|
thermal response
|
fire models
|
methodology
|
validation
|
temperature
|
columns
|
beams
|
flow fields
|
solid phases
|
structural response
- Identifiers
- Finite Element Method (FEM) codes; one-way versus two-way interaction; structural geometry in fire model; merged versus segregated solver; coupling thermal response and mechanical response; two-way coupling (Methods A - B); one-way coupling (Methods C - F); code pairs examined in the FIRESTRUC project for specific coupling types and levels; fire development to thermal response; thermal response to mechanical response; proposed generic interface file format for one-way coupling; steel section details for benchmark scenario; CTICM external column fire case; open car-park case; JASMINE; ANSYS; STELA